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镁基储氢材料的热力学和动力学*
引用本文:周国治,李谦. 镁基储氢材料的热力学和动力学*[J]. 自然杂志, 2011, 33(1): 6-12
作者姓名:周国治  李谦
作者单位:1.中国科学院院士,2副研究员,上海大学材料科学与工程学院,上海市现代冶金与材料制备实验室,上海 200072
基金项目:国家自然科学基金,全国博士学位论文作者专项资助项目,国家高技术研究发展计划项目
摘    要:
金属和合金的吸放氢反应是储氢材料进行的基本物理化学反应。它应服从基本的热力学和动力学规律。为此,想要改善储氢材料的性能,研发新型的储氢材料就需要对此过程的理论和实验两方面作深入的研究。通过热力学和相图能估算储氢的能力,预估吸放氢的可能温度,但要使储氢材料变得切实可行,还需要靠动力学方面的工作。笔者从热力学和相图入手,研究了储氢材料的特征,分析了传统的动力学处理方法的缺陷,提出了新的动力学模型,从而将为寻求新型的储氢材料提供有效的工具。笔者还总结了从实验上探索的一些新型储氢体系。

关 键 词:储氢材料  镁基  热力学  动力学  石墨烯  润滑油  添加剂  
收稿时间:2010-12-21

Thermodynamics and Kinetics of Magnesium-Based Hydrogen Storage Material
ZHOU Guo-zhi,LI Qian. Thermodynamics and Kinetics of Magnesium-Based Hydrogen Storage Material[J]. Chinese Journal of Nature, 2011, 33(1): 6-12
Authors:ZHOU Guo-zhi  LI Qian
Affiliation:1.CAS Member, 2Associate Professor, Shanghai Key Laboratory of Modern Metallurgy and Materials Processing, School of Materials Science and Engineering, Shanghai University, Shanghai 200072, China
Abstract:
The hydriding/de hydriding process of metals and alloys is a basic physicochemical reaction which should meet the law of thermodynamics and kinetics. In order to improve the performance of hydrogen storage materials and develop some new kinds of hydrogen storage materials, it is necessary to study thermodynamics and kinetics for this reaction experimentally and theoretically. The thermodynamic knowledge can be used to predict the reaction temperature of hydriding/dehydriding process and estimate the capability of hydrogen storage. Nevertheless, thermodynamics can not tell us the reaction rate that will prevent us from the practical application of hydrogen storage materials. In this paper, a thermodynamic phase diagram analysis was introduced and a new model system for kinetics of hydriding/dehydriding was summarized, based on which, one might find a useful tool for evaluating and designing new hydrogen storage materials.
Keywords:hydrogen storage material  magnesium based  thermodynamics  kinetics  
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